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E-grāmata: Plasma Technology in the Preservation and Cleaning of Cultural Heritage Objects [Taylor & Francis e-book]

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  • Formāts: 156 pages, 13 Tables, black and white; 63 Line drawings, black and white; 35 Halftones, black and white
  • Izdošanas datums: 31-Mar-2021
  • Izdevniecība: CRC Press
  • ISBN-13: 9780429277610
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  • Taylor & Francis e-book
  • Cena: 186,77 €*
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Plasma Technology in the Preservation and Cleaning of Cultural Heritage ObjectsPalielināt
  • Formāts: 156 pages, 13 Tables, black and white; 63 Line drawings, black and white; 35 Halftones, black and white
  • Izdošanas datums: 31-Mar-2021
  • Izdevniecība: CRC Press
  • ISBN-13: 9780429277610
Citas grāmatas par šo tēmu:
Taylor & Francis e-booksMore info about Taylor & Francis e-books
Rokasgrāmatas mājas lapa: https://www.taylorfrancis.com/books/9780429277610
"Scientists have long been looking for alternative methods for the cleaning of historical and cultural museum objects as conventional methods often fail to completely remove surface films, leaving contamination and surface residues behind. Low-temperature plasmas have recently been found to provide a new, efficient and durable approach that maintains the safety of both the materials and personnel. This book is the first to introduce the emerging use of low-temperature plasmas in the cleaning and decontamination of cultural heritage items. It provides a comprehensive exploration of the new possibilities of cleaning objects with plasma, before providing a practice guide to the individual cleaning methods and an overview of the technologies and conditions used in the different cleaning regimes. It is an ideal reference for researchers in plasma physics, in addition to professionals working in the field of historical and cultural conservation. Features: Provides a thorough overview of the cleaning potential of emerging plasma technologies in accessible language for professional restorers and conservators without a scientific background Includes the latest case studies from the field, which have not been published elsewhere yet Authored by a team of experts in the field"--

Scientists have long been looking for alternative methods for the cleaning of historical and cultural museum objects as conventional methods often fail to completely remove surface films, leaving contamination and surface residues behind. Low-temperature plasmas have recently been found to provide a new, efficient and durable approach that maintains the safety of both the materials and personnel. This book is the first to introduce the emerging use of low-temperature plasmas in the cleaning and decontamination of cultural heritage items.

It provides a comprehensive exploration of the new possibilities of cleaning objects with plasma, before providing a practice guide to the individual cleaning methods and an overview of the technologies and conditions used in the different cleaning regimes. It is an ideal reference for researchers in plasma physics, in addition to professionals working in the field of historical and cultural conservation.

Features:

  • Provides a thorough overview of the cleaning potential of emerging plasma technologies in accessible language for professional restorers and conservators without a scientific background

  • Includes the latest case studies from the field, which have not been published elsewhere yet

    • Authored by a team of experts in the field

    • Contributors ix
    Chapter 1 Introduction
    		1(2)
    Chapter 2 Cleaning in Preservation of Cultural Heritage
    		3(8)
    2.1 Principles of Cleaning
    		5(1)
    2.2 Cleaning Methods
    		5(6)
    2.2.1 Solvent Cleaning
    		6(1)
    2.2.2 Aqueous (Wet) Cleaning
    		7(1)
    2.2.3 Surfactant Cleaning
    		7(1)
    2.2.4 Chemical Cleaning
    		8(1)
    2.2.5 Gel Cleaning
    		8(1)
    2.2.6 New Cleaning Methods
    		9(2)
    Chapter 3 Plasma Technologies in Preservation of Cultural Heritage
    		11(32)
    3.1 Low-Pressure Operating Plasma Systems for Metallic Objects Surface Treatment
    		12(11)
    3.1.1 Vacuum and Gas Handling System
    		12(2)
    3.1.2 Power Supply
    		14(4)
    3.1.3 Plasma Process Monitoring
    		18(5)
    3.2 Atmospheric Pressure Operating Plasma Systems for Metallic Objects Surface Treatment
    		23(2)
    3.3 Laser-Based Plasma Systems for Metallic Objects Surface Treatment
    		25(2)
    3.4 Application of Plasmas with Liquids
    		27(4)
    3.5 Atmospheric Pressure Low-Temperature Plasma Systems for Objects Made from Natural and Synthetic Polymers
    		31(12)
    3.5.1 DBD
    		31(2)
    3.5.2 ADRE
    		33(1)
    3.5.3 Plasma Pen
    		33(2)
    3.5.4 Other Systems
    		35(8)
    Chapter 4 Cleaning Processes in Plasma
    		43(10)
    4.1 Sterilization/Decontamination
    		45(3)
    4.2 Ablation
    		48(1)
    4.3 Activation
    		48(1)
    4.4 Deposition
    		49(1)
    4.5 Cross-Linking
    		49(4)
    Chapter 5 Plasma Cleaning of Inorganic Objects and Materials
    		53(6)
    5.1 Removal of Corrosion Product Layers from Metals
    		53(6)
    Chapter 6 Plasma Cleaning of Organic Objects and Materials
    		59(26)
    6.1 Cleaning of Paper
    		59(3)
    6.2 Cleaning of Wood
    		62(7)
    6.3 Cleaning of Photographs
    		69(6)
    6.3.1 Introduction
    		69(1)
    6.3.2 Cleaning of Daguerreotypes
    		70(2)
    6.3.3 Microbial Decontamination of Albumen and Gelatin Photography
    		72(2)
    6.3.4 The Influence of Plasma Treatment on Properties of Photography
    		74(1)
    6.4 Cleaning of Textiles
    		75(3)
    6.5 Cleaning of Paintings
    		78(7)
    Chapter 7 Overview of Relevant Research Projects
    		85(4)
    Chapter 8 Current Own Case Studies
    		89(58)
    8.1 CS1: Microbiological Decontamination of Paper Substrate Using Low-Temperature ADRE Plasma
    		89(3)
    8.2 CS2: Cleaning of Color Layer on Paper Substrate
    		92(3)
    8.3 CS3: Decontamination of Gelatin Photography
    		95(2)
    8.4 CS4: Image Recovery in Cyanotype
    		97(2)
    8.5 CS5: Cleaning Historical Textile with Metal Threads by Plasma
    		99(5)
    8.6 CS6: Low-Pressure Removal of Model Corrosion Layers from Iron
    		104(27)
    8.6.1 Preparation of Iron Model Samples
    		105(5)
    8.6.2 Experimental Setup and Conditions
    		110(2)
    8.6.3 Samples Corroded in Hydrochloric Acid Corroded Treatment in the Continuous Regime
    		112(4)
    8.6.4 Hydrochloric Acid Corroded Samples Treatment in the Pulsed Regime
    		116(4)
    8.6.5 Treatment of Samples Corroded in Nitric Acid
    		120(3)
    8.6.6 Treatment of Samples Corroded in Sulfuric Acid
    		123(1)
    8.6.7 Application of Bias Voltage
    		124(2)
    8.6.8 Treatment in Hydrogen-Argon Gaseous Mixtures
    		126(4)
    8.6.9 Concluding Remarks
    		130(1)
    8.7 CS7: Treatment of Bronze Chisel by Low-Pressure Hydrogen-Argon Plasma
    		131(3)
    8.8 CS8: Surface Cleaning of Ancient Glass by Plasma Generated in Water Solution
    		134(13)
    Index 147
    Dr. Radko Tio is an associate professor at the Slovak University of Technology in Bratislava. He focuses his research on the properties and modifications of materials composed of natural polymers, mainly wood, paper, composites and parchment. He is also active in research and development of new mass conservation technologies for the preservation of cultural heritage. Since 2003, he has been actively researching the effects of low-temperature non-equilibrium plasmas on the surfaces of lignocellulosic materials in international projects (Durawood, SusPlArt) and domestic projects (PlasmArt, Mespekri, and others). He is a member of the advisory board of experts of the Slovak Commission for UNESCO and a member of the steering committee of the Working Party of Chemistry in Cultural Heritage within the European Chemical Society.

    Dr. Katarķna Vizįrovį is an associate professor at the Slovak University of Technology in Bratislava in the field of natural polymers and materials. Her research focuses on the identification, degradation and stabilization processes of organic materials and heritage objects. She has led and been part of several international and domestic research projects focused on mass conservation technologies for the preservation of heritage objects and materials.

    Dr. Frantiek Krma is an associate professor at Brno University of Technology in the field of physical chemistry. His research focuses on low temperature non-equilibrium plasmas in gases and liquids and their applications in material, environmental and biomedical applications. He was a chair of COST Action TD1208 Electrical discharges in liquids for future applications.

    Dr. Milena Rehįkovį is an associate professor at Slovak University of Technology in Bratislava in the field of macromolecular chemistry. Her research focuses on the spectral identification, characterization, stabilization and cleaning processes of the color layer and writing means on traditional supports.

    Dr. Viera Janoviovį is an associate professor at the Slovak University of Technology in Bratislava, where she focuses on the study of photochemical processes and reactions. Her research also includes historical photographs, the study of their light and thermal stability, the degradation processes associated with their ageing and their protection.

    Dr. Zdenka Kozįkovį is an associate professor at Brno University of Technology in Brno, Czech Republic in the field of physical chemistry. Her research focuses on diagnostics, chemical analyses and applications of non-thermal plasmas generated in gases and liquids.
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